Tyrosine Derivatives
Learn MoreBeta-amino acids are a unique class of compounds that offer an alternative to traditional alpha-amino acids Unlike their alpha counterparts beta-amino acids possess an additional carbon atom between the amino and carboxylic acid groups resulting in distinct chemical and biological properties This structural modification provides beta-amino acids with enhanced stability improved bioavailability and a range of potential applications in drug development peptide synthesis and materials science With their ability to confer novel structural features and functional groups beta-amino acids hold great promise for advancing the field of biotechnology and uncovering new avenues for innovation and discovery
Catalog Number | Product Name | Product Size | CAS Number | Price |
---|---|---|---|---|
UD-0240 | β-Alanine | 50 g | 107-95-9 | Online Inquiry |
UD-0241 | (S)-Boc-3,4-dimethoxy-β-Phe-OH | 500 mg | 499995-84-5 | Online Inquiry |
UD-0242 | Fmoc-β-Homotyr(tBu)-OH | 1 g | 219967-69-8 | Online Inquiry |
UD-0243 | (S)-Fmoc-2-methyl-β-Homophe-OH | 500 mg | 270062-91-4 | Online Inquiry |
UD-0244 | L-β-Homohydroxyproline hydrochloride | 500 mg | 336182-11-7 | Online Inquiry |
UD-0245 | (R)-Boc-3-(trifluoromethyl)-β-Phe-OH | 500 mg | 501015-18-5 | Online Inquiry |
UD-0246 | (R)-Boc-4-chloro-β-Phe-OH | 500 mg | 479064-93-2 | Online Inquiry |
UD-0247 | (S)-Boc-2-cyano-β-Homophe-OH | 500 mg | 270065-83-3 | Online Inquiry |
UD-0248 | (S)-Boc-2-(trifluoromethyl)-β-Homophe-OH | 500 mg | 270065-80-0 | Online Inquiry |
UD-0249 | Fmoc-β-Homothr(tBu)-OH | 1 g | 353245-99-5 | Online Inquiry |
Beta-Amino Acids have a wide range of applications across various industries and scientific fields In the field of pharmaceuticals beta-amino acids can be used as building blocks to create novel drug molecules with enhanced pharmacological properties such as increased stability or improved drug targeting
In the field of materials science beta-amino acids can be utilized in the synthesis of polymers and organic materials Their unique chemical properties including increased rigidity and stability make them valuable components in the development of advanced materials for applications such as coatings adhesives and electronics
In the realm of biochemistry and molecular biology beta-amino acids are used as tools for studying protein structure and function By incorporating beta-amino acids into peptides and proteins researchers can gain insights into the effect of chemical modifications on their properties and interactions aiding in the development of therapeutic agents and biotechnological applications
Overall the versatility and potential of beta-amino acids make them a valuable resource in various scientific disciplines with promising implications for drug discovery material design and biochemical research
Please note that all services are for research use only. Not intended for any clinical use.
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